/* sane - Scanner Access Now Easy. Copyright (C) 1997 Andreas Beck Copyright (C) 2001 - 2004 Henning Meier-Geinitz Copyright (C) 2003, 2008 Julien BLACHE AF-independent + IPv6 code, standalone mode This file is part of the SANE package. SANE is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. SANE is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with sane; see the file COPYING. If not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. The SANE network daemon. This is the counterpart to the NET backend. */ #ifdef _AIX # include "../include/lalloca.h" /* MUST come first for AIX! */ #endif #include "../include/sane/config.h" #include "../include/lalloca.h" #include #if defined(HAVE_GETADDRINFO) && defined (HAVE_GETNAMEINFO) # define SANED_USES_AF_INDEP # ifdef HAS_SS_FAMILY # define SS_FAMILY(ss) ss.ss_family # elif defined(HAS___SS_FAMILY) # define SS_FAMILY(ss) ss.__ss_family # else /* fallback to the old, IPv4-only code */ # undef SANED_USES_AF_INDEP # undef ENABLE_IPV6 # endif #else # undef ENABLE_IPV6 #endif /* HAVE_GETADDRINFO && HAVE_GETNAMEINFO */ #include #include #include #include #include #include #include #include #include #include #include #include #ifdef HAVE_LIBC_H # include /* NeXTStep/OpenStep */ #endif #ifdef HAVE_SYS_SELECT_H # include #endif #include #include #include #include #include #include #include #include #include #include #if defined(HAVE_SYS_POLL_H) && defined(HAVE_POLL) # include #else /* * This replacement poll() using select() is only designed to cover * our needs in run_standalone(). It should probably be extended... */ struct pollfd { int fd; short events; short revents; }; #define POLLIN 0x0001 #define POLLERR 0x0002 int poll (struct pollfd *ufds, unsigned int nfds, int timeout); int poll (struct pollfd *ufds, unsigned int nfds, int timeout) { struct pollfd *fdp; fd_set rfds; fd_set efds; struct timeval tv; int maxfd = 0; unsigned int i; int ret; tv.tv_sec = timeout / 1000; tv.tv_usec = (timeout - tv.tv_sec * 1000) * 1000; FD_ZERO (&rfds); FD_ZERO (&efds); for (i = 0, fdp = ufds; i < nfds; i++, fdp++) { fdp->revents = 0; if (fdp->events & POLLIN) FD_SET (fdp->fd, &rfds); FD_SET (fdp->fd, &efds); maxfd = (fdp->fd > maxfd) ? fdp->fd : maxfd; } maxfd++; ret = select (maxfd, &rfds, NULL, &efds, &tv); if (ret < 0) return ret; for (i = 0, fdp = ufds; i < nfds; i++, fdp++) { if (fdp->events & POLLIN) if (FD_ISSET (fdp->fd, &rfds)) fdp->revents |= POLLIN; if (FD_ISSET (fdp->fd, &efds)) fdp->revents |= POLLERR; } return ret; } #endif /* HAVE_SYS_POLL_H && HAVE_POLL */ #ifdef WITH_AVAHI # include # include # include # include # include # include # define SANED_SERVICE_DNS "_sane-port._tcp" # define SANED_NAME "saned" pid_t avahi_pid = -1; char *avahi_svc_name; static AvahiClient *avahi_client = NULL; static AvahiSimplePoll *avahi_poll = NULL; static AvahiEntryGroup *avahi_group = NULL; #endif /* WITH_AVAHI */ #ifdef HAVE_SYSTEMD #include #endif #include "../include/sane/sane.h" #include "../include/sane/sanei.h" #include "../include/sane/sanei_net.h" #include "../include/sane/sanei_codec_bin.h" #include "../include/sane/sanei_config.h" #include "../include/sane/sanei_auth.h" #ifndef EXIT_SUCCESS # define EXIT_SUCCESS 0 #endif #ifndef IN_LOOPBACK # define IN_LOOPBACK(addr) (addr == 0x7f000001L) #endif #ifdef ENABLE_IPV6 # define SANE_IN6_IS_ADDR_LOOPBACK(a) \ (((const uint32_t *) (a))[0] == 0 \ && ((const uint32_t *) (a))[1] == 0 \ && ((const uint32_t *) (a))[2] == 0 \ && ((const uint32_t *) (a))[3] == htonl (1)) #define SANE_IN6_IS_ADDR_V4MAPPED(a) \ ((((const uint32_t *) (a))[0] == 0) \ && (((const uint32_t *) (a))[1] == 0) \ && (((const uint32_t *) (a))[2] == htonl (0xffff))) #endif /* ENABLE_IPV6 */ #ifndef MAXHOSTNAMELEN # define MAXHOSTNAMELEN 120 #endif #ifndef PATH_MAX # define PATH_MAX 1024 #endif struct saned_child { pid_t pid; struct saned_child *next; }; struct saned_child *children; int numchildren; #define SANED_CONFIG_FILE "saned.conf" #define SANED_PID_FILE "/var/run/saned.pid" #define SANED_SERVICE_NAME "sane-port" #define SANED_SERVICE_PORT 6566 #define SANED_SERVICE_PORT_S "6566" typedef struct { u_int inuse:1; /* is this handle in use? */ u_int scanning:1; /* are we scanning? */ u_int docancel:1; /* cancel the current scan */ SANE_Handle handle; /* backends handle */ } Handle; static SANE_Net_Procedure_Number current_request; static const char *prog_name; static int can_authorize; static Wire wire; static int num_handles; static int debug; static int run_mode; static Handle *handle; static union { int w; u_char ch; } byte_order; /* The default-user name. This is not used to imply any rights. All it does is save a remote user some work by reducing the amount of text s/he has to type when authentication is requested. */ static const char *default_username = "saned-user"; static char *remote_ip; /* data port range */ static in_port_t data_port_lo; static in_port_t data_port_hi; #ifdef SANED_USES_AF_INDEP static union { struct sockaddr_storage ss; struct sockaddr sa; struct sockaddr_in sin; #ifdef ENABLE_IPV6 struct sockaddr_in6 sin6; #endif } remote_address; static int remote_address_len; #else static struct in_addr remote_address; #endif /* SANED_USES_AF_INDEP */ #ifndef _PATH_HEQUIV # define _PATH_HEQUIV "/etc/hosts.equiv" #endif static const char *config_file_names[] = { _PATH_HEQUIV, SANED_CONFIG_FILE }; static SANE_Bool log_to_syslog = SANE_TRUE; /* forward declarations: */ static int process_request (Wire * w); #define SANED_RUN_INETD 0 #define SANED_RUN_DEBUG 1 #define SANED_RUN_ALONE 2 #define DBG_ERR 1 #define DBG_WARN 2 #define DBG_MSG 3 #define DBG_INFO 4 #define DBG_DBG 5 #define DBG saned_debug_call static void saned_debug_call (int level, const char *fmt, ...) { #ifndef NDEBUG va_list ap; va_start (ap, fmt); if (debug >= level) { if (log_to_syslog) { /* print to syslog */ vsyslog (LOG_DEBUG, fmt, ap); } else { /* print to stderr */ fprintf (stderr, "[saned] "); vfprintf (stderr, fmt, ap); } } va_end (ap); #endif } static void reset_watchdog (void) { if (!debug) alarm (3600); } static void auth_callback (SANE_String_Const res, SANE_Char *username, SANE_Char *password) { SANE_Net_Procedure_Number procnum; SANE_Authorization_Req req; SANE_Word word, ack = 0; memset (username, 0, SANE_MAX_USERNAME_LEN); memset (password, 0, SANE_MAX_PASSWORD_LEN); if (!can_authorize) { DBG (DBG_WARN, "auth_callback: called during non-authorizable RPC (resource=%s)\n", res); return; } if (wire.status) { DBG(DBG_ERR, "auth_callback: bad status %d\n", wire.status); return; } switch (current_request) { case SANE_NET_OPEN: { SANE_Open_Reply reply; memset (&reply, 0, sizeof (reply)); reply.resource_to_authorize = (char *) res; sanei_w_reply (&wire, (WireCodecFunc) sanei_w_open_reply, &reply); } break; case SANE_NET_CONTROL_OPTION: { SANE_Control_Option_Reply reply; memset (&reply, 0, sizeof (reply)); reply.resource_to_authorize = (char *) res; sanei_w_reply (&wire, (WireCodecFunc) sanei_w_control_option_reply, &reply); } break; case SANE_NET_START: { SANE_Start_Reply reply; memset (&reply, 0, sizeof (reply)); reply.resource_to_authorize = (char *) res; sanei_w_reply (&wire, (WireCodecFunc) sanei_w_start_reply, &reply); } break; default: DBG (DBG_WARN, "auth_callback: called for unexpected request %d (resource=%s)\n", current_request, res); break; } if (wire.status) { DBG(DBG_ERR, "auth_callback: bad status %d\n", wire.status); return; } reset_watchdog (); sanei_w_set_dir (&wire, WIRE_DECODE); sanei_w_word (&wire, &word); if (wire.status) { DBG(DBG_ERR, "auth_callback: bad status %d\n", wire.status); return; } procnum = word; if (procnum != SANE_NET_AUTHORIZE) { DBG (DBG_WARN, "auth_callback: bad procedure number %d " "(expected: %d, resource=%s)\n", procnum, SANE_NET_AUTHORIZE, res); return; } sanei_w_authorization_req (&wire, &req); if (wire.status) { DBG(DBG_ERR, "auth_callback: bad status %d\n", wire.status); return; } if (req.username) strcpy (username, req.username); if (req.password) strcpy (password, req.password); if (!req.resource || strcmp (req.resource, res) != 0) { DBG (DBG_MSG, "auth_callback: got auth for resource %s (expected resource=%s)\n", res, req.resource); } sanei_w_free (&wire, (WireCodecFunc) sanei_w_authorization_req, &req); sanei_w_reply (&wire, (WireCodecFunc) sanei_w_word, &ack); } static void quit (int signum) { static int running = 0; int i; if (signum) DBG (DBG_ERR, "quit: received signal %d\n", signum); if (running) { DBG (DBG_ERR, "quit: already active, returning\n"); return; } running = 1; for (i = 0; i < num_handles; ++i) if (handle[i].inuse) sane_close (handle[i].handle); sane_exit (); sanei_w_exit (&wire); if (handle) free (handle); DBG (DBG_WARN, "quit: exiting\n"); if (log_to_syslog) closelog (); exit (EXIT_SUCCESS); /* This is a nowait-daemon. */ } static SANE_Word get_free_handle (void) { # define ALLOC_INCREMENT 16 static int h, last_handle_checked = -1; if (num_handles > 0) { h = last_handle_checked + 1; do { if (h >= num_handles) h = 0; if (!handle[h].inuse) { last_handle_checked = h; memset (handle + h, 0, sizeof (handle[0])); handle[h].inuse = 1; return h; } ++h; } while (h != last_handle_checked); } /* we're out of handles---alloc some more: */ last_handle_checked = num_handles - 1; num_handles += ALLOC_INCREMENT; if (handle) handle = realloc (handle, num_handles * sizeof (handle[0])); else handle = malloc (num_handles * sizeof (handle[0])); if (!handle) return -1; memset (handle + last_handle_checked + 1, 0, ALLOC_INCREMENT * sizeof (handle[0])); return get_free_handle (); # undef ALLOC_INCREMENT } static void close_handle (int h) { if (h >= 0 && handle[h].inuse) { sane_close (handle[h].handle); handle[h].inuse = 0; } } static SANE_Word decode_handle (Wire * w, const char *op) { SANE_Word h; sanei_w_word (w, &h); if (w->status || (unsigned) h >= (unsigned) num_handles || !handle[h].inuse) { DBG (DBG_ERR, "decode_handle: %s: error while decoding handle argument " "(h=%d, %s)\n", op, h, strerror (w->status)); return -1; } return h; } /* Convert a number of bits to an 8-bit bitmask */ static unsigned int cidrtomask[9] = { 0x00, 0x80, 0xC0, 0xE0, 0xF0, 0xF8, 0xFC, 0xFE, 0xFF }; #ifdef SANED_USES_AF_INDEP static SANE_Bool check_v4_in_range (struct sockaddr_in *sin, char *base_ip, char *netmask) { int cidr; int i, err; char *end; uint32_t mask; struct sockaddr_in *base; struct addrinfo hints; struct addrinfo *res; SANE_Bool ret = SANE_FALSE; cidr = -1; cidr = strtol (netmask, &end, 10); /* Sanity check on the cidr value */ if ((cidr < 0) || (cidr > 32) || (end == netmask)) { DBG (DBG_ERR, "check_v4_in_range: invalid CIDR value (%s) !\n", netmask); return SANE_FALSE; } mask = 0; cidr -= 8; /* Build a bitmask out of the CIDR value */ for (i = 3; cidr >= 0; i--) { mask |= (0xff << (8 * i)); cidr -= 8; } if (cidr < 0) mask |= (cidrtomask[cidr + 8] << (8 * i)); mask = htonl (mask); /* get a sockaddr_in representing the base IP address */ memset (&hints, 0, sizeof (struct addrinfo)); hints.ai_flags = AI_NUMERICHOST; hints.ai_family = PF_INET; err = getaddrinfo (base_ip, NULL, &hints, &res); if (err) { DBG (DBG_DBG, "check_v4_in_range: getaddrinfo() failed: %s\n", gai_strerror (err)); return SANE_FALSE; } base = (struct sockaddr_in *) res->ai_addr; /* * Check that the address belongs to the specified subnet, using the bitmask. * The address is represented by a 32bit integer. */ if ((base->sin_addr.s_addr & mask) == (sin->sin_addr.s_addr & mask)) ret = SANE_TRUE; freeaddrinfo (res); return ret; } # ifdef ENABLE_IPV6 static SANE_Bool check_v6_in_range (struct sockaddr_in6 *sin6, char *base_ip, char *netmask) { int cidr; int i, err; unsigned int mask[16]; char *end; struct sockaddr_in6 *base; struct addrinfo hints; struct addrinfo *res; SANE_Bool ret = SANE_TRUE; cidr = -1; cidr = strtol (netmask, &end, 10); /* Sanity check on the cidr value */ if ((cidr < 0) || (cidr > 128) || (end == netmask)) { DBG (DBG_ERR, "check_v6_in_range: invalid CIDR value (%s) !\n", netmask); return SANE_FALSE; } memset (mask, 0, (16 * sizeof (unsigned int))); cidr -= 8; /* Build a bitmask out of the CIDR value */ for (i = 0; cidr >= 0; i++) { mask[i] = 0xff; cidr -= 8; } if (cidr < 0) mask[i] = cidrtomask[cidr + 8]; /* get a sockaddr_in6 representing the base IP address */ memset (&hints, 0, sizeof (struct addrinfo)); hints.ai_flags = AI_NUMERICHOST; hints.ai_family = PF_INET6; err = getaddrinfo (base_ip, NULL, &hints, &res); if (err) { DBG (DBG_DBG, "check_v6_in_range: getaddrinfo() failed: %s\n", gai_strerror (err)); return SANE_FALSE; } base = (struct sockaddr_in6 *) res->ai_addr; /* * Check that the address belongs to the specified subnet. * The address is reprensented by an array of 16 8bit integers. */ for (i = 0; i < 16; i++) { if ((base->sin6_addr.s6_addr[i] & mask[i]) != (sin6->sin6_addr.s6_addr[i] & mask[i])) { ret = SANE_FALSE; break; } } freeaddrinfo (res); return ret; } # endif /* ENABLE_IPV6 */ #else /* !SANED_USES_AF_INDEP */ static SANE_Bool check_v4_in_range (struct in_addr *inaddr, struct in_addr *base, char *netmask) { int cidr; int i; char *end; uint32_t mask; SANE_Bool ret = SANE_FALSE; cidr = -1; cidr = strtol (netmask, &end, 10); /* sanity check on the cidr value */ if ((cidr < 0) || (cidr > 32) || (end == netmask)) { DBG (DBG_ERR, "check_v4_in_range: invalid CIDR value (%s) !\n", netmask); return SANE_FALSE; } mask = 0; cidr -= 8; /* Build a bitmask out of the CIDR value */ for (i = 3; cidr >= 0; i--) { mask |= (0xff << (8 * i)); cidr -= 8; } if (cidr < 0) mask |= (cidrtomask[cidr + 8] << (8 * i)); mask = htonl (mask); /* * Check that the address belongs to the specified subnet, using the bitmask. * The address is represented by a 32bit integer. */ if ((base->s_addr & mask) == (inaddr->s_addr & mask)) ret = SANE_TRUE; return ret; } #endif /* SANED_USES_AF_INDEP */ /* Access control */ #ifdef SANED_USES_AF_INDEP static SANE_Status check_host (int fd) { struct sockaddr_in *sin = NULL; #ifdef ENABLE_IPV6 struct sockaddr_in6 *sin6; #endif /* ENABLE_IPV6 */ struct addrinfo hints; struct addrinfo *res; struct addrinfo *resp; int j, access_ok = 0; int err; char text_addr[64]; #ifdef ENABLE_IPV6 SANE_Bool IPv4map = SANE_FALSE; char *remote_ipv4 = NULL; /* in case we have an IPv4-mapped address (eg ::ffff:127.0.0.1) */ char *tmp; struct addrinfo *remote_ipv4_addr = NULL; #endif /* ENABLE_IPV6 */ char config_line_buf[1024]; char *config_line; char *netmask; char hostname[MAXHOSTNAMELEN]; int len; FILE *fp; /* Get address of remote host */ remote_address_len = sizeof (remote_address.ss); if (getpeername (fd, &remote_address.sa, (socklen_t *) &remote_address_len) < 0) { DBG (DBG_ERR, "check_host: getpeername failed: %s\n", strerror (errno)); remote_ip = strdup ("[error]"); return SANE_STATUS_INVAL; } err = getnameinfo (&remote_address.sa, remote_address_len, hostname, sizeof (hostname), NULL, 0, NI_NUMERICHOST); if (err) { DBG (DBG_DBG, "check_host: getnameinfo failed: %s\n", gai_strerror(err)); remote_ip = strdup ("[error]"); return SANE_STATUS_INVAL; } else remote_ip = strdup (hostname); #ifdef ENABLE_IPV6 sin6 = &remote_address.sin6; if (SANE_IN6_IS_ADDR_V4MAPPED (sin6->sin6_addr.s6_addr)) { DBG (DBG_DBG, "check_host: detected an IPv4-mapped address\n"); remote_ipv4 = remote_ip + 7; IPv4map = SANE_TRUE; memset (&hints, 0, sizeof (struct addrinfo)); hints.ai_flags = AI_NUMERICHOST; hints.ai_family = PF_INET; err = getaddrinfo (remote_ipv4, NULL, &hints, &res); if (err) { DBG (DBG_DBG, "check_host: getaddrinfo() failed: %s\n", gai_strerror (err)); IPv4map = SANE_FALSE; /* we failed, remote_ipv4_addr points to nothing */ } else { remote_ipv4_addr = res; sin = (struct sockaddr_in *)res->ai_addr; } } #endif /* ENABLE_IPV6 */ DBG (DBG_WARN, "check_host: access by remote host: %s\n", remote_ip); /* Always allow access from local host. Do it here to avoid DNS lookups and reading saned.conf. */ #ifdef ENABLE_IPV6 if (IPv4map == SANE_TRUE) { if (IN_LOOPBACK (ntohl (sin->sin_addr.s_addr))) { DBG (DBG_MSG, "check_host: remote host is IN_LOOPBACK: access granted\n"); freeaddrinfo (remote_ipv4_addr); return SANE_STATUS_GOOD; } freeaddrinfo (remote_ipv4_addr); } #endif /* ENABLE_IPV6 */ sin = &remote_address.sin; switch (SS_FAMILY(remote_address.ss)) { case AF_INET: if (IN_LOOPBACK (ntohl (sin->sin_addr.s_addr))) { DBG (DBG_MSG, "check_host: remote host is IN_LOOPBACK: access granted\n"); return SANE_STATUS_GOOD; } break; #ifdef ENABLE_IPV6 case AF_INET6: if (SANE_IN6_IS_ADDR_LOOPBACK (sin6->sin6_addr.s6_addr)) { DBG (DBG_MSG, "check_host: remote host is IN6_LOOPBACK: access granted\n"); return SANE_STATUS_GOOD; } break; #endif /* ENABLE_IPV6 */ default: break; } DBG (DBG_DBG, "check_host: remote host is not IN_LOOPBACK" #ifdef ENABLE_IPV6 " nor IN6_LOOPBACK" #endif /* ENABLE_IPV6 */ "\n"); /* Get name of local host */ if (gethostname (hostname, sizeof (hostname)) < 0) { DBG (DBG_ERR, "check_host: gethostname failed: %s\n", strerror (errno)); return SANE_STATUS_INVAL; } DBG (DBG_DBG, "check_host: local hostname: %s\n", hostname); /* Get local addresses */ memset (&hints, 0, sizeof (hints)); hints.ai_flags = AI_CANONNAME; #ifdef ENABLE_IPV6 hints.ai_family = PF_UNSPEC; #else hints.ai_family = PF_INET; #endif /* ENABLE_IPV6 */ err = getaddrinfo (hostname, NULL, &hints, &res); if (err) { DBG (DBG_ERR, "check_host: getaddrinfo for local hostname failed: %s\n", gai_strerror (err)); /* Proceed even if the local hostname does not resolve */ if (err != EAI_NONAME) return SANE_STATUS_INVAL; } else { for (resp = res; resp != NULL; resp = resp->ai_next) { DBG (DBG_DBG, "check_host: local hostname(s) (from DNS): %s\n", resp->ai_canonname); err = getnameinfo (resp->ai_addr, resp->ai_addrlen, text_addr, sizeof (text_addr), NULL, 0, NI_NUMERICHOST); if (err) strncpy (text_addr, "[error]", 8); #ifdef ENABLE_IPV6 if ((strcasecmp (text_addr, remote_ip) == 0) || ((IPv4map == SANE_TRUE) && (strcmp (text_addr, remote_ipv4) == 0))) #else if (strcmp (text_addr, remote_ip) == 0) #endif /* ENABLE_IPV6 */ { DBG (DBG_MSG, "check_host: remote host has same addr as local: access granted\n"); freeaddrinfo (res); res = NULL; return SANE_STATUS_GOOD; } } freeaddrinfo (res); res = NULL; DBG (DBG_DBG, "check_host: remote host doesn't have same addr as local\n"); } /* must be a remote host: check contents of PATH_NET_CONFIG or /etc/hosts.equiv if former doesn't exist: */ for (j = 0; j < NELEMS (config_file_names); ++j) { DBG (DBG_DBG, "check_host: opening config file: %s\n", config_file_names[j]); if (config_file_names[j][0] == '/') fp = fopen (config_file_names[j], "r"); else fp = sanei_config_open (config_file_names[j]); if (!fp) { DBG (DBG_MSG, "check_host: can't open config file: %s (%s)\n", config_file_names[j], strerror (errno)); continue; } while (!access_ok && sanei_config_read (config_line_buf, sizeof (config_line_buf), fp)) { config_line = config_line_buf; /* from now on, use a pointer */ DBG (DBG_DBG, "check_host: config file line: `%s'\n", config_line); if (config_line[0] == '#') continue; /* ignore comments */ if (strchr (config_line, '=')) continue; /* ignore lines with an = sign */ len = strlen (config_line); if (!len) continue; /* ignore empty lines */ /* look for a subnet specification */ netmask = strchr (config_line, '/'); if (netmask != NULL) { *netmask = '\0'; netmask++; DBG (DBG_DBG, "check_host: subnet with base IP = %s, CIDR netmask = %s\n", config_line, netmask); } #ifdef ENABLE_IPV6 /* IPv6 addresses are enclosed in [] */ if (*config_line == '[') { config_line++; tmp = strchr (config_line, ']'); if (tmp == NULL) { DBG (DBG_ERR, "check_host: malformed IPv6 address in config file, skipping: [%s\n", config_line); continue; } *tmp = '\0'; } #endif /* ENABLE_IPV6 */ if (strcmp (config_line, "+") == 0) { access_ok = 1; DBG (DBG_DBG, "check_host: access granted from any host (`+')\n"); } /* compare remote_ip (remote IP address) to the config_line */ else if (strcasecmp (config_line, remote_ip) == 0) { access_ok = 1; DBG (DBG_DBG, "check_host: access granted from IP address %s\n", remote_ip); } #ifdef ENABLE_IPV6 else if ((IPv4map == SANE_TRUE) && (strcmp (config_line, remote_ipv4) == 0)) { access_ok = 1; DBG (DBG_DBG, "check_host: access granted from IP address %s (IPv4-mapped)\n", remote_ip); } /* handle IP ranges, take care of the IPv4map stuff */ else if (netmask != NULL) { if (strchr (config_line, ':') != NULL) /* is a v6 address */ { if (SS_FAMILY(remote_address.ss) == AF_INET6) { if (check_v6_in_range (sin6, config_line, netmask)) { access_ok = 1; DBG (DBG_DBG, "check_host: access granted from IP address %s (in subnet [%s]/%s)\n", remote_ip, config_line, netmask); } } } else /* is a v4 address */ { if (IPv4map == SANE_TRUE) { /* get a sockaddr_in representing the v4-mapped IP address */ memset (&hints, 0, sizeof (struct addrinfo)); hints.ai_flags = AI_NUMERICHOST; hints.ai_family = PF_INET; err = getaddrinfo (remote_ipv4, NULL, &hints, &res); if (err) DBG (DBG_DBG, "check_host: getaddrinfo() failed: %s\n", gai_strerror (err)); else sin = (struct sockaddr_in *)res->ai_addr; } if ((SS_FAMILY(remote_address.ss) == AF_INET) || (IPv4map == SANE_TRUE)) { if (check_v4_in_range (sin, config_line, netmask)) { DBG (DBG_DBG, "check_host: access granted from IP address %s (in subnet %s/%s)\n", ((IPv4map == SANE_TRUE) ? remote_ipv4 : remote_ip), config_line, netmask); access_ok = 1; } else { /* restore the old sin pointer */ sin = &remote_address.sin; } if (res != NULL) { freeaddrinfo (res); res = NULL; } } } } #else /* !ENABLE_IPV6 */ /* handle IP ranges */ else if (netmask != NULL) { if (check_v4_in_range (sin, config_line, netmask)) { access_ok = 1; DBG (DBG_DBG, "check_host: access granted from IP address %s (in subnet %s/%s)\n", remote_ip, config_line, netmask); } } #endif /* ENABLE_IPV6 */ else { memset (&hints, 0, sizeof (hints)); hints.ai_flags = AI_CANONNAME; #ifdef ENABLE_IPV6 hints.ai_family = PF_UNSPEC; #else hints.ai_family = PF_INET; #endif /* ENABLE_IPV6 */ err = getaddrinfo (config_line, NULL, &hints, &res); if (err) { DBG (DBG_DBG, "check_host: getaddrinfo for `%s' failed: %s\n", config_line, gai_strerror (err)); DBG (DBG_MSG, "check_host: entry isn't an IP address " "and can't be found in DNS\n"); continue; } else { for (resp = res; resp != NULL; resp = resp->ai_next) { err = getnameinfo (resp->ai_addr, resp->ai_addrlen, text_addr, sizeof (text_addr), NULL, 0, NI_NUMERICHOST); if (err) strncpy (text_addr, "[error]", 8); DBG (DBG_MSG, "check_host: DNS lookup returns IP address: %s\n", text_addr); #ifdef ENABLE_IPV6 if ((strcasecmp (text_addr, remote_ip) == 0) || ((IPv4map == SANE_TRUE) && (strcmp (text_addr, remote_ipv4) == 0))) #else if (strcmp (text_addr, remote_ip) == 0) #endif /* ENABLE_IPV6 */ access_ok = 1; if (access_ok) break; } freeaddrinfo (res); res = NULL; } } } fclose (fp); } if (access_ok) return SANE_STATUS_GOOD; return SANE_STATUS_ACCESS_DENIED; } #else /* !SANED_USES_AF_INDEP */ static SANE_Status check_host (int fd) { struct sockaddr_in sin; int j, access_ok = 0; struct hostent *he; char text_addr[64]; char config_line_buf[1024]; char *config_line; char *netmask; char hostname[MAXHOSTNAMELEN]; char *r_hostname; static struct in_addr config_line_address; int len; FILE *fp; /* Get address of remote host */ len = sizeof (sin); if (getpeername (fd, (struct sockaddr *) &sin, (socklen_t *) &len) < 0) { DBG (DBG_ERR, "check_host: getpeername failed: %s\n", strerror (errno)); remote_ip = strdup ("[error]"); return SANE_STATUS_INVAL; } r_hostname = inet_ntoa (sin.sin_addr); remote_ip = strdup (r_hostname); DBG (DBG_WARN, "check_host: access by remote host: %s\n", remote_ip); /* Save remote address for check of control and data connections */ memcpy (&remote_address, &sin.sin_addr, sizeof (remote_address)); /* Always allow access from local host. Do it here to avoid DNS lookups and reading saned.conf. */ if (IN_LOOPBACK (ntohl (sin.sin_addr.s_addr))) { DBG (DBG_MSG, "check_host: remote host is IN_LOOPBACK: access accepted\n"); return SANE_STATUS_GOOD; } DBG (DBG_DBG, "check_host: remote host is not IN_LOOPBACK\n"); /* Get name of local host */ if (gethostname (hostname, sizeof (hostname)) < 0) { DBG (DBG_ERR, "check_host: gethostname failed: %s\n", strerror (errno)); return SANE_STATUS_INVAL; } DBG (DBG_DBG, "check_host: local hostname: %s\n", hostname); /* Get local address */ he = gethostbyname (hostname); if (!he) { DBG (DBG_ERR, "check_host: gethostbyname for local hostname failed: %s\n", hstrerror (h_errno)); /* Proceed even if the local hostname doesn't resolve */ if (h_errno != HOST_NOT_FOUND) return SANE_STATUS_INVAL; } else { DBG (DBG_DBG, "check_host: local hostname (from DNS): %s\n", he->h_name); if ((he->h_length == 4) || (he->h_addrtype == AF_INET)) { if (!inet_ntop (he->h_addrtype, he->h_addr_list[0], text_addr, sizeof (text_addr))) strcpy (text_addr, "[error]"); DBG (DBG_DBG, "check_host: local host address (from DNS): %s\n", text_addr); if (memcmp (he->h_addr_list[0], &remote_address.s_addr, 4) == 0) { DBG (DBG_MSG, "check_host: remote host has same addr as local: " "access accepted\n"); return SANE_STATUS_GOOD; } } else { DBG (DBG_ERR, "check_host: can't get local address " "(only IPv4 is supported)\n"); } DBG (DBG_DBG, "check_host: remote host doesn't have same addr as local\n"); } /* must be a remote host: check contents of PATH_NET_CONFIG or /etc/hosts.equiv if former doesn't exist: */ for (j = 0; j < NELEMS (config_file_names); ++j) { DBG (DBG_DBG, "check_host: opening config file: %s\n", config_file_names[j]); if (config_file_names[j][0] == '/') fp = fopen (config_file_names[j], "r"); else fp = sanei_config_open (config_file_names[j]); if (!fp) { DBG (DBG_MSG, "check_host: can't open config file: %s (%s)\n", config_file_names[j], strerror (errno)); continue; } while (!access_ok && sanei_config_read (config_line_buf, sizeof (config_line_buf), fp)) { config_line = config_line_buf; /* from now on, use a pointer */ DBG (DBG_DBG, "check_host: config file line: `%s'\n", config_line); if (config_line[0] == '#') continue; /* ignore comments */ if (strchr (config_line, '=')) continue; /* ignore lines with an = sign */ len = strlen (config_line); if (!len) continue; /* ignore empty lines */ /* look for a subnet specification */ netmask = strchr (config_line, '/'); if (netmask != NULL) { *netmask = '\0'; netmask++; DBG (DBG_DBG, "check_host: subnet with base IP = %s, CIDR netmask = %s\n", config_line, netmask); } if (strcmp (config_line, "+") == 0) { access_ok = 1; DBG (DBG_DBG, "check_host: access accepted from any host (`+')\n"); } else { if (inet_pton (AF_INET, config_line, &config_line_address) > 0) { if (memcmp (&remote_address.s_addr, &config_line_address.s_addr, 4) == 0) access_ok = 1; else if (netmask != NULL) { if (check_v4_in_range (&remote_address, &config_line_address, netmask)) { access_ok = 1; DBG (DBG_DBG, "check_host: access granted from IP address %s (in subnet %s/%s)\n", remote_ip, config_line, netmask); } } } else { DBG (DBG_DBG, "check_host: inet_pton for `%s' failed\n", config_line); he = gethostbyname (config_line); if (!he) { DBG (DBG_DBG, "check_host: gethostbyname for `%s' failed: %s\n", config_line, hstrerror (h_errno)); DBG (DBG_MSG, "check_host: entry isn't an IP address " "and can't be found in DNS\n"); continue; } if (!inet_ntop (he->h_addrtype, he->h_addr_list[0], text_addr, sizeof (text_addr))) strcpy (text_addr, "[error]"); DBG (DBG_MSG, "check_host: DNS lookup returns IP address: %s\n", text_addr); if (memcmp (&remote_address.s_addr, he->h_addr_list[0], 4) == 0) access_ok = 1; } } } fclose (fp); if (access_ok) return SANE_STATUS_GOOD; } return SANE_STATUS_ACCESS_DENIED; } #endif /* SANED_USES_AF_INDEP */ static int init (Wire * w) { SANE_Word word, be_version_code; SANE_Init_Reply reply; SANE_Status status; SANE_Init_Req req; reset_watchdog (); status = check_host (w->io.fd); if (status != SANE_STATUS_GOOD) { DBG (DBG_WARN, "init: access by host %s denied\n", remote_ip); return -1; } else DBG (DBG_MSG, "init: access granted\n"); sanei_w_set_dir (w, WIRE_DECODE); if (w->status) { DBG (DBG_ERR, "init: bad status after sanei_w_set_dir: %d\n", w->status); return -1; } sanei_w_word (w, &word); /* decode procedure number */ if (w->status || word != SANE_NET_INIT) { DBG (DBG_ERR, "init: bad status=%d or procnum=%d\n", w->status, word); return -1; } sanei_w_init_req (w, &req); if (w->status) { DBG (DBG_ERR, "init: bad status after sanei_w_init_req: %d\n", w->status); return -1; } w->version = SANEI_NET_PROTOCOL_VERSION; if (req.username) default_username = strdup (req.username); sanei_w_free (w, (WireCodecFunc) sanei_w_init_req, &req); if (w->status) { DBG (DBG_ERR, "init: bad status after sanei_w_free: %d\n", w->status); return -1; } reply.version_code = SANE_VERSION_CODE (V_MAJOR, V_MINOR, SANEI_NET_PROTOCOL_VERSION); DBG (DBG_WARN, "init: access granted to %s@%s\n", default_username, remote_ip); if (status == SANE_STATUS_GOOD) { status = sane_init (&be_version_code, auth_callback); if (status != SANE_STATUS_GOOD) DBG (DBG_ERR, "init: failed to initialize backend (%s)\n", sane_strstatus (status)); if (SANE_VERSION_MAJOR (be_version_code) != V_MAJOR) { DBG (DBG_ERR, "init: unexpected backend major version %d (expected %d)\n", SANE_VERSION_MAJOR (be_version_code), V_MAJOR); status = SANE_STATUS_INVAL; } } reply.status = status; if (status != SANE_STATUS_GOOD) reply.version_code = 0; sanei_w_reply (w, (WireCodecFunc) sanei_w_init_reply, &reply); if (w->status || status != SANE_STATUS_GOOD) return -1; return 0; } #ifdef SANED_USES_AF_INDEP static int start_scan (Wire * w, int h, SANE_Start_Reply * reply) { union { struct sockaddr_storage ss; struct sockaddr sa; struct sockaddr_in sin; #ifdef ENABLE_IPV6 struct sockaddr_in6 sin6; #endif /* ENABLE_IPV6 */ } data_addr; struct sockaddr_in *sin; #ifdef ENABLE_IPV6 struct sockaddr_in6 *sin6; #endif /* ENABLE_IPV6 */ SANE_Handle be_handle; int fd, len; in_port_t data_port; int ret; be_handle = handle[h].handle; len = sizeof (data_addr.ss); if (getsockname (w->io.fd, &data_addr.sa, (socklen_t *) &len) < 0) { DBG (DBG_ERR, "start_scan: failed to obtain socket address (%s)\n", strerror (errno)); reply->status = SANE_STATUS_IO_ERROR; return -1; } fd = socket (SS_FAMILY(data_addr.ss), SOCK_STREAM, 0); if (fd < 0) { DBG (DBG_ERR, "start_scan: failed to obtain data socket (%s)\n", strerror (errno)); reply->status = SANE_STATUS_IO_ERROR; return -1; } switch (SS_FAMILY(data_addr.ss)) { case AF_INET: sin = &data_addr.sin; break; #ifdef ENABLE_IPV6 case AF_INET6: sin6 = &data_addr.sin6; break; #endif /* ENABLE_IPV6 */ default: break; } /* Try to bind a port between data_port_lo and data_port_hi for the data connection */ for (data_port = data_port_lo; data_port <= data_port_hi; data_port++) { switch (SS_FAMILY(data_addr.ss)) { case AF_INET: sin->sin_port = htons(data_port); break; #ifdef ENABLE_IPV6 case AF_INET6: sin6->sin6_port = htons(data_port); break; #endif /* ENABLE_IPV6 */ default: break; } DBG (DBG_INFO, "start_scan: trying to bind data port %d\n", data_port); ret = bind (fd, &data_addr.sa, len); if (ret == 0) break; } if (ret < 0) { DBG (DBG_ERR, "start_scan: failed to bind address (%s)\n", strerror (errno)); reply->status = SANE_STATUS_IO_ERROR; return -1; } if (listen (fd, 1) < 0) { DBG (DBG_ERR, "start_scan: failed to make socket listen (%s)\n", strerror (errno)); reply->status = SANE_STATUS_IO_ERROR; return -1; } if (getsockname (fd, &data_addr.sa, (socklen_t *) &len) < 0) { DBG (DBG_ERR, "start_scan: failed to obtain socket address (%s)\n", strerror (errno)); reply->status = SANE_STATUS_IO_ERROR; return -1; } switch (SS_FAMILY(data_addr.ss)) { case AF_INET: sin = &data_addr.sin; reply->port = ntohs (sin->sin_port); break; #ifdef ENABLE_IPV6 case AF_INET6: sin6 = &data_addr.sin6; reply->port = ntohs (sin6->sin6_port); break; #endif /* ENABLE_IPV6 */ default: break; } DBG (DBG_MSG, "start_scan: using port %d for data\n", reply->port); reply->status = sane_start (be_handle); if (reply->status == SANE_STATUS_GOOD) { handle[h].scanning = 1; handle[h].docancel = 0; } return fd; } #else /* !SANED_USES_AF_INDEP */ static int start_scan (Wire * w, int h, SANE_Start_Reply * reply) { struct sockaddr_in sin; SANE_Handle be_handle; int fd, len; in_port_t data_port; int ret; be_handle = handle[h].handle; len = sizeof (sin); if (getsockname (w->io.fd, (struct sockaddr *) &sin, (socklen_t *) &len) < 0) { DBG (DBG_ERR, "start_scan: failed to obtain socket address (%s)\n", strerror (errno)); reply->status = SANE_STATUS_IO_ERROR; return -1; } fd = socket (AF_INET, SOCK_STREAM, 0); if (fd < 0) { DBG (DBG_ERR, "start_scan: failed to obtain data socket (%s)\n", strerror (errno)); reply->status = SANE_STATUS_IO_ERROR; return -1; } /* Try to bind a port between data_port_lo and data_port_hi for the data connection */ for (data_port = data_port_lo; data_port <= data_port_hi; data_port++) { sin.sin_port = htons(data_port); DBG(DBG_INFO, "start_scan: trying to bind data port %d\n", data_port); ret = bind (fd, (struct sockaddr *) &sin, len); if (ret == 0) break; } if (ret < 0) { DBG (DBG_ERR, "start_scan: failed to bind address (%s)\n", strerror (errno)); reply->status = SANE_STATUS_IO_ERROR; return -1; } if (listen (fd, 1) < 0) { DBG (DBG_ERR, "start_scan: failed to make socket listen (%s)\n", strerror (errno)); reply->status = SANE_STATUS_IO_ERROR; return -1; } if (getsockname (fd, (struct sockaddr *) &sin, (socklen_t *) &len) < 0) { DBG (DBG_ERR, "start_scan: failed to obtain socket address (%s)\n", strerror (errno)); reply->status = SANE_STATUS_IO_ERROR; return -1; } reply->port = ntohs (sin.sin_port); DBG (DBG_MSG, "start_scan: using port %d for data\n", reply->port); reply->status = sane_start (be_handle); if (reply->status == SANE_STATUS_GOOD) { handle[h].scanning = 1; handle[h].docancel = 0; } return fd; } #endif /* SANED_USES_AF_INDEP */ static int store_reclen (SANE_Byte * buf, size_t buf_size, int i, size_t reclen) { buf[i++] = (reclen >> 24) & 0xff; if (i >= (int) buf_size) i = 0; buf[i++] = (reclen >> 16) & 0xff; if (i >= (int) buf_size) i = 0; buf[i++] = (reclen >> 8) & 0xff; if (i >= (int) buf_size) i = 0; buf[i++] = (reclen >> 0) & 0xff; if (i >= (int) buf_size) i = 0; return i; } static void do_scan (Wire * w, int h, int data_fd) { int num_fds, be_fd = -1, reader, writer, bytes_in_buf, status_dirty = 0; SANE_Handle be_handle = handle[h].handle; struct timeval tv, *timeout = 0; fd_set rd_set, rd_mask, wr_set, wr_mask; SANE_Byte buf[8192]; SANE_Status status; long int nwritten; SANE_Int length; size_t nbytes; DBG (3, "do_scan: start\n"); FD_ZERO (&rd_mask); FD_SET (w->io.fd, &rd_mask); num_fds = w->io.fd + 1; FD_ZERO (&wr_mask); FD_SET (data_fd, &wr_mask); if (data_fd >= num_fds) num_fds = data_fd + 1; sane_set_io_mode (be_handle, SANE_TRUE); if (sane_get_select_fd (be_handle, &be_fd) == SANE_STATUS_GOOD) { FD_SET (be_fd, &rd_mask); if (be_fd >= num_fds) num_fds = be_fd + 1; } else { memset (&tv, 0, sizeof (tv)); timeout = &tv; } status = SANE_STATUS_GOOD; reader = writer = bytes_in_buf = 0; do { rd_set = rd_mask; wr_set = wr_mask; if (select (num_fds, &rd_set, &wr_set, 0, timeout) < 0) { if (be_fd >= 0 && errno == EBADF) { /* This normally happens when a backend closes a select filedescriptor when reaching the end of file. So pass back this status to the client: */ FD_CLR (be_fd, &rd_mask); be_fd = -1; /* only set status_dirty if EOF hasn't been already detected */ if (status == SANE_STATUS_GOOD) status_dirty = 1; status = SANE_STATUS_EOF; DBG (DBG_INFO, "do_scan: select_fd was closed --> EOF\n"); continue; } else { status = SANE_STATUS_IO_ERROR; DBG (DBG_ERR, "do_scan: select failed (%s)\n", strerror (errno)); break; } } if (bytes_in_buf) { if (FD_ISSET (data_fd, &wr_set)) { if (bytes_in_buf > 0) { /* write more input data */ nbytes = bytes_in_buf; if (writer + nbytes > sizeof (buf)) nbytes = sizeof (buf) - writer; DBG (DBG_INFO, "do_scan: trying to write %d bytes to client\n", nbytes); nwritten = write (data_fd, buf + writer, nbytes); DBG (DBG_INFO, "do_scan: wrote %ld bytes to client\n", nwritten); if (nwritten < 0) { DBG (DBG_ERR, "do_scan: write failed (%s)\n", strerror (errno)); status = SANE_STATUS_CANCELLED; break; } bytes_in_buf -= nwritten; writer += nwritten; if (writer == sizeof (buf)) writer = 0; } } } else if (status == SANE_STATUS_GOOD && (timeout || FD_ISSET (be_fd, &rd_set))) { int i; /* get more input data */ /* reserve 4 bytes to store the length of the data record: */ i = reader; reader += 4; if (reader >= (int) sizeof (buf)) reader -= sizeof(buf); assert (bytes_in_buf == 0); nbytes = sizeof (buf) - 4; if (reader + nbytes > sizeof (buf)) nbytes = sizeof (buf) - reader; DBG (DBG_INFO, "do_scan: trying to read %d bytes from scanner\n", nbytes); status = sane_read (be_handle, buf + reader, nbytes, &length); DBG (DBG_INFO, "do_scan: read %d bytes from scanner\n", length); reset_watchdog (); reader += length; if (reader >= (int) sizeof (buf)) reader = 0; bytes_in_buf += length + 4; if (status != SANE_STATUS_GOOD) { reader = i; /* restore reader index */ status_dirty = 1; DBG (DBG_MSG, "do_scan: status = `%s'\n", sane_strstatus(status)); } else store_reclen (buf, sizeof (buf), i, length); } if (status_dirty && sizeof (buf) - bytes_in_buf >= 5) { status_dirty = 0; reader = store_reclen (buf, sizeof (buf), reader, 0xffffffff); buf[reader] = status; bytes_in_buf += 5; DBG (DBG_MSG, "do_scan: statuscode `%s' was added to buffer\n", sane_strstatus(status)); } if (FD_ISSET (w->io.fd, &rd_set)) { DBG (DBG_MSG, "do_scan: processing RPC request on fd %d\n", w->io.fd); process_request (w); if (handle[h].docancel) break; } } while (status == SANE_STATUS_GOOD || bytes_in_buf > 0 || status_dirty); DBG (DBG_MSG, "do_scan: done, status=%s\n", sane_strstatus (status)); handle[h].docancel = 0; handle[h].scanning = 0; } static int process_request (Wire * w) { SANE_Handle be_handle; SANE_Word h, word; int i; DBG (DBG_DBG, "process_request: waiting for request\n"); sanei_w_set_dir (w, WIRE_DECODE); sanei_w_word (w, &word); /* decode procedure number */ if (w->status) { DBG (DBG_ERR, "process_request: bad status %d\n", w->status); return -1; } current_request = word; DBG (DBG_MSG, "process_request: got request %d\n", current_request); switch (current_request) { case SANE_NET_GET_DEVICES: { SANE_Get_Devices_Reply reply; reply.status = sane_get_devices ((const SANE_Device ***) &reply.device_list, SANE_TRUE); sanei_w_reply (w, (WireCodecFunc) sanei_w_get_devices_reply, &reply); } break; case SANE_NET_OPEN: { SANE_Open_Reply reply; SANE_Handle be_handle; SANE_String name, resource; sanei_w_string (w, &name); if (w->status) { DBG (DBG_ERR, "process_request: (open) error while decoding args (%s)\n", strerror (w->status)); return 1; } if (!name) { DBG (DBG_ERR, "process_request: (open) device_name == NULL\n"); reply.status = SANE_STATUS_INVAL; sanei_w_reply (w, (WireCodecFunc) sanei_w_open_reply, &reply); return 1; } can_authorize = 1; resource = strdup (name); if (strlen(resource) == 0) { const SANE_Device **device_list; DBG(DBG_DBG, "process_request: (open) strlen(resource) == 0\n"); free (resource); if ((i = sane_get_devices (&device_list, SANE_TRUE)) != SANE_STATUS_GOOD) { DBG(DBG_ERR, "process_request: (open) sane_get_devices failed\n"); memset (&reply, 0, sizeof (reply)); reply.status = i; sanei_w_reply (w, (WireCodecFunc) sanei_w_open_reply, &reply); break; } if ((device_list == NULL) || (device_list[0] == NULL)) { DBG(DBG_ERR, "process_request: (open) device_list[0] == 0\n"); memset (&reply, 0, sizeof (reply)); reply.status = SANE_STATUS_INVAL; sanei_w_reply (w, (WireCodecFunc) sanei_w_open_reply, &reply); break; } resource = strdup (device_list[0]->name); } if (strchr (resource, ':')) *(strchr (resource, ':')) = 0; if (sanei_authorize (resource, "saned", auth_callback) != SANE_STATUS_GOOD) { DBG (DBG_ERR, "process_request: access to resource `%s' denied\n", resource); free (resource); memset (&reply, 0, sizeof (reply)); /* avoid leaking bits */ reply.status = SANE_STATUS_ACCESS_DENIED; } else { DBG (DBG_MSG, "process_request: access to resource `%s' granted\n", resource); free (resource); memset (&reply, 0, sizeof (reply)); /* avoid leaking bits */ reply.status = sane_open (name, &be_handle); DBG (DBG_MSG, "process_request: sane_open returned: %s\n", sane_strstatus (reply.status)); } if (reply.status == SANE_STATUS_GOOD) { h = get_free_handle (); if (h < 0) reply.status = SANE_STATUS_NO_MEM; else { handle[h].handle = be_handle; reply.handle = h; } } can_authorize = 0; sanei_w_reply (w, (WireCodecFunc) sanei_w_open_reply, &reply); sanei_w_free (w, (WireCodecFunc) sanei_w_string, &name); } break; case SANE_NET_CLOSE: { SANE_Word ack = 0; h = decode_handle (w, "close"); close_handle (h); sanei_w_reply (w, (WireCodecFunc) sanei_w_word, &ack); } break; case SANE_NET_GET_OPTION_DESCRIPTORS: { SANE_Option_Descriptor_Array opt; h = decode_handle (w, "get_option_descriptors"); if (h < 0) return 1; be_handle = handle[h].handle; sane_control_option (be_handle, 0, SANE_ACTION_GET_VALUE, &opt.num_options, 0); opt.desc = malloc (opt.num_options * sizeof (opt.desc[0])); for (i = 0; i < opt.num_options; ++i) opt.desc[i] = (SANE_Option_Descriptor *) sane_get_option_descriptor (be_handle, i); sanei_w_reply (w,(WireCodecFunc) sanei_w_option_descriptor_array, &opt); free (opt.desc); } break; case SANE_NET_CONTROL_OPTION: { SANE_Control_Option_Req req; SANE_Control_Option_Reply reply; sanei_w_control_option_req (w, &req); if (w->status || (unsigned) req.handle >= (unsigned) num_handles || !handle[req.handle].inuse) { DBG (DBG_ERR, "process_request: (control_option) " "error while decoding args h=%d (%s)\n" , req.handle, strerror (w->status)); return 1; } can_authorize = 1; memset (&reply, 0, sizeof (reply)); /* avoid leaking bits */ be_handle = handle[req.handle].handle; reply.status = sane_control_option (be_handle, req.option, req.action, req.value, &reply.info); reply.value_type = req.value_type; reply.value_size = req.value_size; reply.value = req.value; can_authorize = 0; sanei_w_reply (w, (WireCodecFunc) sanei_w_control_option_reply, &reply); sanei_w_free (w, (WireCodecFunc) sanei_w_control_option_req, &req); } break; case SANE_NET_GET_PARAMETERS: { SANE_Get_Parameters_Reply reply; h = decode_handle (w, "get_parameters"); if (h < 0) return 1; be_handle = handle[h].handle; reply.status = sane_get_parameters (be_handle, &reply.params); sanei_w_reply (w, (WireCodecFunc) sanei_w_get_parameters_reply, &reply); } break; case SANE_NET_START: { SANE_Start_Reply reply; int fd = -1, data_fd; h = decode_handle (w, "start"); if (h < 0) return 1; memset (&reply, 0, sizeof (reply)); /* avoid leaking bits */ reply.byte_order = SANE_NET_LITTLE_ENDIAN; if (byte_order.w != 1) reply.byte_order = SANE_NET_BIG_ENDIAN; if (handle[h].scanning) reply.status = SANE_STATUS_DEVICE_BUSY; else fd = start_scan (w, h, &reply); sanei_w_reply (w, (WireCodecFunc) sanei_w_start_reply, &reply); #ifdef SANED_USES_AF_INDEP if (reply.status == SANE_STATUS_GOOD) { struct sockaddr_storage ss; char text_addr[64]; int len; int error; DBG (DBG_MSG, "process_request: waiting for data connection\n"); data_fd = accept (fd, 0, 0); close (fd); /* Get address of remote host */ len = sizeof (ss); if (getpeername (data_fd, (struct sockaddr *) &ss, (socklen_t *) &len) < 0) { DBG (DBG_ERR, "process_request: getpeername failed: %s\n", strerror (errno)); return 1; } error = getnameinfo ((struct sockaddr *) &ss, len, text_addr, sizeof (text_addr), NULL, 0, NI_NUMERICHOST); if (error) { DBG (DBG_ERR, "process_request: getnameinfo failed: %s\n", gai_strerror (error)); return 1; } DBG (DBG_MSG, "process_request: access to data port from %s\n", text_addr); if (strcmp (text_addr, remote_ip) != 0) { DBG (DBG_ERR, "process_request: however, only %s is authorized\n", text_addr); DBG (DBG_ERR, "process_request: configuration problem or attack?\n"); close (data_fd); data_fd = -1; return -1; } #else /* !SANED_USES_AF_INDEP */ if (reply.status == SANE_STATUS_GOOD) { struct sockaddr_in sin; int len; DBG (DBG_MSG, "process_request: waiting for data connection\n"); data_fd = accept (fd, 0, 0); close (fd); /* Get address of remote host */ len = sizeof (sin); if (getpeername (data_fd, (struct sockaddr *) &sin, (socklen_t *) &len) < 0) { DBG (DBG_ERR, "process_request: getpeername failed: %s\n", strerror (errno)); return 1; } if (memcmp (&remote_address, &sin.sin_addr, sizeof (remote_address)) != 0) { DBG (DBG_ERR, "process_request: access to data port from %s\n", inet_ntoa (sin.sin_addr)); DBG (DBG_ERR, "process_request: however, only %s is authorized\n", inet_ntoa (remote_address)); DBG (DBG_ERR, "process_request: configuration problem or attack?\n"); close (data_fd); data_fd = -1; return -1; } else DBG (DBG_MSG, "process_request: access to data port from %s\n", inet_ntoa (sin.sin_addr)); #endif /* SANED_USES_AF_INDEP */ if (data_fd < 0) { sane_cancel (handle[h].handle); handle[h].scanning = 0; handle[h].docancel = 0; DBG (DBG_ERR, "process_request: accept failed! (%s)\n", strerror (errno)); return 1; } fcntl (data_fd, F_SETFL, 1); /* set non-blocking */ shutdown (data_fd, 0); do_scan (w, h, data_fd); close (data_fd); } } break; case SANE_NET_CANCEL: { SANE_Word ack = 0; h = decode_handle (w, "cancel"); if (h >= 0) { sane_cancel (handle[h].handle); handle[h].docancel = 1; } sanei_w_reply (w, (WireCodecFunc) sanei_w_word, &ack); } break; case SANE_NET_EXIT: return -1; break; case SANE_NET_INIT: case SANE_NET_AUTHORIZE: default: DBG (DBG_ERR, "process_request: received unexpected procedure number %d\n", current_request); return -1; } return 0; } static int wait_child (pid_t pid, int *status, int options) { struct saned_child *c; struct saned_child *p = NULL; int ret; ret = waitpid(pid, status, options); if (ret <= 0) return ret; #ifdef WITH_AVAHI if ((avahi_pid > 0) && (ret == avahi_pid)) { avahi_pid = -1; numchildren--; return ret; } #endif /* WITH_AVAHI */ for (c = children; (c != NULL) && (c->next != NULL); p = c, c = c->next) { if (c->pid == ret) { if (c == children) children = c->next; else if (p != NULL) p->next = c->next; free(c); numchildren--; break; } } return ret; } static int add_child (pid_t pid) { struct saned_child *c; c = (struct saned_child *) malloc (sizeof(struct saned_child)); if (c == NULL) { DBG (DBG_ERR, "add_child: out of memory\n"); return -1; } c->pid = pid; c->next = children; children = c; return 0; } static void handle_connection (int fd) { #ifdef TCP_NODELAY int on = 1; int level = -1; #endif DBG (DBG_DBG, "handle_connection: processing client connection\n"); wire.io.fd = fd; signal (SIGALRM, quit); signal (SIGPIPE, quit); #ifdef TCP_NODELAY # ifdef SOL_TCP level = SOL_TCP; # else /* !SOL_TCP */ /* Look up the protocol level in the protocols database. */ { struct protoent *p; p = getprotobyname ("tcp"); if (p == 0) { DBG (DBG_WARN, "handle_connection: cannot look up `tcp' protocol number"); } else level = p->p_proto; } # endif /* SOL_TCP */ if (level == -1 || setsockopt (wire.io.fd, level, TCP_NODELAY, &on, sizeof (on))) DBG (DBG_WARN, "handle_connection: failed to put socket in TCP_NODELAY mode (%s)", strerror (errno)); #endif /* !TCP_NODELAY */ if (init (&wire) < 0) return; while (1) { reset_watchdog (); if (process_request (&wire) < 0) break; } } static void handle_client (int fd) { pid_t pid; int i; DBG (DBG_DBG, "handle_client: spawning child process\n"); pid = fork (); if (pid == 0) { /* child */ if (log_to_syslog) closelog(); for (i = 3; i < fd; i++) close(i); if (log_to_syslog) openlog ("saned", LOG_PID | LOG_CONS, LOG_DAEMON); handle_connection (fd); quit (0); } else if (pid > 0) { /* parent */ add_child (pid); close(fd); } else { /* FAILED */ DBG (DBG_ERR, "handle_client: fork() failed: %s\n", strerror (errno)); close(fd); } } static void bail_out (int error) { DBG (DBG_ERR, "%sbailing out, waiting for children...\n", (error) ? "FATAL ERROR; " : ""); #ifdef WITH_AVAHI if (avahi_pid > 0) kill (avahi_pid, SIGTERM); #endif /* WITH_AVAHI */ while (numchildren > 0) wait_child (-1, NULL, 0); DBG (DBG_ERR, "bail_out: all children exited\n"); exit ((error) ? 1 : 0); } void sig_int_term_handler (int signum); void sig_int_term_handler (int signum) { /* unused */ signum = signum; signal (SIGINT, NULL); signal (SIGTERM, NULL); bail_out (0); } #ifdef WITH_AVAHI static void saned_avahi (struct pollfd *fds, int nfds); static void saned_create_avahi_services (AvahiClient *c); static void saned_avahi_callback (AvahiClient *c, AvahiClientState state, void *userdata); static void saned_avahi_group_callback (AvahiEntryGroup *g, AvahiEntryGroupState state, void *userdata); static void saned_avahi (struct pollfd *fds, int nfds) { struct pollfd *fdp = NULL; int error; avahi_pid = fork (); if (avahi_pid > 0) { numchildren++; return; } else if (avahi_pid < 0) { DBG (DBG_ERR, "saned_avahi: could not spawn Avahi process: %s\n", strerror (errno)); return; } signal (SIGINT, NULL); signal (SIGTERM, NULL); /* Close network fds */ for (fdp = fds; nfds > 0; nfds--, fdp++) close (fdp->fd); free(fds); avahi_svc_name = avahi_strdup(SANED_NAME); avahi_poll = avahi_simple_poll_new (); if (avahi_poll == NULL) { DBG (DBG_ERR, "saned_avahi: failed to create simple poll object\n"); goto fail; } avahi_client = avahi_client_new (avahi_simple_poll_get (avahi_poll), AVAHI_CLIENT_NO_FAIL, saned_avahi_callback, NULL, &error); if (avahi_client == NULL) { DBG (DBG_ERR, "saned_avahi: failed to create client: %s\n", avahi_strerror (error)); goto fail; } avahi_simple_poll_loop (avahi_poll); DBG (DBG_INFO, "saned_avahi: poll loop exited\n"); exit(EXIT_SUCCESS); /* NOT REACHED */ return; fail: if (avahi_client) avahi_client_free (avahi_client); if (avahi_poll) avahi_simple_poll_free (avahi_poll); avahi_free (avahi_svc_name); exit(EXIT_FAILURE); } static void saned_avahi_group_callback (AvahiEntryGroup *g, AvahiEntryGroupState state, void *userdata) { char *n; /* unused */ userdata = userdata; if ((!g) || (g != avahi_group)) return; switch (state) { case AVAHI_ENTRY_GROUP_ESTABLISHED: /* The entry group has been established successfully */ DBG (DBG_INFO, "saned_avahi_group_callback: service '%s' successfully established\n", avahi_svc_name); break; case AVAHI_ENTRY_GROUP_COLLISION: /* A service name collision with a remote service * happened. Let's pick a new name */ n = avahi_alternative_service_name (avahi_svc_name); avahi_free (avahi_svc_name); avahi_svc_name = n; DBG (DBG_WARN, "saned_avahi_group_callback: service name collision, renaming service to '%s'\n", avahi_svc_name); /* And recreate the services */ saned_create_avahi_services (avahi_entry_group_get_client (g)); break; case AVAHI_ENTRY_GROUP_FAILURE : DBG (DBG_ERR, "saned_avahi_group_callback: entry group failure: %s\n", avahi_strerror (avahi_client_errno (avahi_entry_group_get_client (g)))); /* Some kind of failure happened while we were registering our services */ avahi_simple_poll_quit (avahi_poll); break; case AVAHI_ENTRY_GROUP_UNCOMMITED: case AVAHI_ENTRY_GROUP_REGISTERING: break; } } static void saned_create_avahi_services (AvahiClient *c) { char *n; char txt[32]; AvahiProtocol proto; int ret; if (!c) return; if (!avahi_group) { avahi_group = avahi_entry_group_new (c, saned_avahi_group_callback, NULL); if (avahi_group == NULL) { DBG (DBG_ERR, "saned_create_avahi_services: avahi_entry_group_new() failed: %s\n", avahi_strerror (avahi_client_errno (c))); goto fail; } } if (avahi_entry_group_is_empty (avahi_group)) { DBG (DBG_INFO, "saned_create_avahi_services: adding service '%s'\n", avahi_svc_name); snprintf(txt, sizeof (txt), "protovers=%x", SANE_VERSION_CODE (V_MAJOR, V_MINOR, SANEI_NET_PROTOCOL_VERSION)); #ifdef ENABLE_IPV6 proto = AVAHI_PROTO_UNSPEC; #else proto = AVAHI_PROTO_INET; #endif /* ENABLE_IPV6 */ ret = avahi_entry_group_add_service (avahi_group, AVAHI_IF_UNSPEC, proto, 0, avahi_svc_name, SANED_SERVICE_DNS, NULL, NULL, SANED_SERVICE_PORT, txt, NULL); if (ret < 0) { if (ret == AVAHI_ERR_COLLISION) { n = avahi_alternative_service_name (avahi_svc_name); avahi_free (avahi_svc_name); avahi_svc_name = n; DBG (DBG_WARN, "saned_create_avahi_services: service name collision, renaming service to '%s'\n", avahi_svc_name); avahi_entry_group_reset (avahi_group); saned_create_avahi_services (c); return; } DBG (DBG_ERR, "saned_create_avahi_services: failed to add %s service: %s\n", SANED_SERVICE_DNS, avahi_strerror (ret)); goto fail; } /* Tell the server to register the service */ ret = avahi_entry_group_commit (avahi_group); if (ret < 0) { DBG (DBG_ERR, "saned_create_avahi_services: failed to commit entry group: %s\n", avahi_strerror (ret)); goto fail; } } return; fail: avahi_simple_poll_quit (avahi_poll); } static void saned_avahi_callback (AvahiClient *c, AvahiClientState state, void *userdata) { int error; /* unused */ userdata = userdata; if (!c) return; switch (state) { case AVAHI_CLIENT_CONNECTING: DBG (DBG_INFO, "saned_avahi_callback: AVAHI_CLIENT_CONNECTING\n"); break; case AVAHI_CLIENT_S_RUNNING: DBG (DBG_INFO, "saned_avahi_callback: AVAHI_CLIENT_S_RUNNING\n"); saned_create_avahi_services (c); break; case AVAHI_CLIENT_S_COLLISION: DBG (DBG_INFO, "saned_avahi_callback: AVAHI_CLIENT_S_COLLISION\n"); case AVAHI_CLIENT_S_REGISTERING: DBG (DBG_INFO, "saned_avahi_callback: AVAHI_CLIENT_S_REGISTERING\n"); if (avahi_group) avahi_entry_group_reset (avahi_group); break; case AVAHI_CLIENT_FAILURE: DBG (DBG_INFO, "saned_avahi_callback: AVAHI_CLIENT_FAILURE\n"); error = avahi_client_errno (c); if (error == AVAHI_ERR_DISCONNECTED) { DBG (DBG_INFO, "saned_avahi_callback: AVAHI_ERR_DISCONNECTED\n"); /* Server disappeared - try to reconnect */ avahi_client_free (avahi_client); avahi_client = NULL; avahi_group = NULL; avahi_client = avahi_client_new (avahi_simple_poll_get (avahi_poll), AVAHI_CLIENT_NO_FAIL, saned_avahi_callback, NULL, &error); if (avahi_client == NULL) { DBG (DBG_ERR, "saned_avahi_callback: failed to create client: %s\n", avahi_strerror (error)); avahi_simple_poll_quit (avahi_poll); } } else { /* Another error happened - game over */ DBG (DBG_ERR, "saned_avahi_callback: client failure: %s\n", avahi_strerror (error)); avahi_simple_poll_quit (avahi_poll); } break; } } #endif /* WITH_AVAHI */ static void read_config (void) { char config_line[PATH_MAX]; const char *optval; char *endval; long val; FILE *fp; int len; DBG (DBG_INFO, "read_config: searching for config file\n"); fp = sanei_config_open (SANED_CONFIG_FILE); if (fp) { while (sanei_config_read (config_line, sizeof (config_line), fp)) { if (config_line[0] == '#') continue; /* ignore line comments */ optval = strchr (config_line, '='); if (optval == NULL) continue; /* only interested in options, skip hosts */ len = strlen (config_line); if (!len) continue; /* ignore empty lines */ /* * Check for saned options. * Anything that isn't an option is a client. */ if (strstr(config_line, "data_portrange") != NULL) { optval = sanei_config_skip_whitespace (++optval); if ((optval != NULL) && (*optval != '\0')) { val = strtol (optval, &endval, 10); if (optval == endval) { DBG (DBG_ERR, "read_config: invalid value for data_portrange\n"); continue; } else if ((val < 0) || (val > 65535)) { DBG (DBG_ERR, "read_config: data_portrange start port is invalid\n"); continue; } optval = strchr (endval, '-'); if (optval == NULL) { DBG (DBG_ERR, "read_config: no end port value for data_portrange\n"); continue; } optval = sanei_config_skip_whitespace (++optval); data_port_lo = val; val = strtol (optval, &endval, 10); if (optval == endval) { DBG (DBG_ERR, "read_config: invalid value for data_portrange\n"); data_port_lo = 0; continue; } else if ((val < 0) || (val > 65535)) { DBG (DBG_ERR, "read_config: data_portrange end port is invalid\n"); data_port_lo = 0; continue; } else if (val < data_port_lo) { DBG (DBG_ERR, "read_config: data_portrange end port is less than start port\n"); data_port_lo = 0; continue; } data_port_hi = val; DBG (DBG_INFO, "read_config: data port range: %d - %d\n", data_port_lo, data_port_hi); } } } fclose (fp); DBG (DBG_INFO, "read_config: done reading config\n"); } else DBG (DBG_ERR, "read_config: could not open config file (%s): %s\n", SANED_CONFIG_FILE, strerror (errno)); } #ifdef SANED_USES_AF_INDEP static void do_bindings_family (int family, int *nfds, struct pollfd **fds, struct addrinfo *res) { struct addrinfo *resp; struct pollfd *fdp; short sane_port; int fd = -1; int on = 1; int i; fdp = *fds; for (resp = res, i = 0; resp != NULL; resp = resp->ai_next, i++) { /* We're not interested */ if (resp->ai_family != family) continue; if (resp->ai_family == AF_INET) { sane_port = ntohs (((struct sockaddr_in *) resp->ai_addr)->sin_port); } #ifdef ENABLE_IPV6 else if (resp->ai_family == AF_INET6) { sane_port = ntohs (((struct sockaddr_in6 *) resp->ai_addr)->sin6_port); } #endif /* ENABLE_IPV6 */ else continue; DBG (DBG_DBG, "do_bindings: [%d] socket () using IPv%d\n", i, (family == AF_INET) ? 4 : 6); if ((fd = socket (resp->ai_family, SOCK_STREAM, 0)) < 0) { DBG (DBG_ERR, "do_bindings: [%d] socket failed: %s\n", i, strerror (errno)); continue; } DBG (DBG_DBG, "do_bindings: [%d] setsockopt ()\n", i); if (setsockopt (fd, SOL_SOCKET, SO_REUSEADDR, &on, sizeof (on))) DBG (DBG_ERR, "do_bindings: [%d] failed to put socket in SO_REUSEADDR mode (%s)\n", i, strerror (errno)); DBG (DBG_DBG, "do_bindings: [%d] bind () to port %d\n", i, sane_port); if (bind (fd, resp->ai_addr, resp->ai_addrlen) < 0) { /* * Binding a socket may fail with EADDRINUSE if we already bound * to an IPv6 addr returned by getaddrinfo (usually the first ones) * and we're trying to bind to an IPv4 addr now. * It can also fail because we're trying to bind an IPv6 socket and IPv6 * is not functional on this machine. * In any case, a bind() call returning an error is not necessarily fatal. */ DBG (DBG_WARN, "do_bindings: [%d] bind failed: %s\n", i, strerror (errno)); close (fd); continue; } DBG (DBG_DBG, "do_bindings: [%d] listen ()\n", i); if (listen (fd, 1) < 0) { DBG (DBG_ERR, "do_bindings: [%d] listen failed: %s\n", i, strerror (errno)); close (fd); continue; } fdp->fd = fd; fdp->events = POLLIN; (*nfds)++; fdp++; } *fds = fdp; } static void do_bindings (int *nfds, struct pollfd **fds) { struct addrinfo *res; struct addrinfo *resp; struct addrinfo hints; struct pollfd *fdp; int err; DBG (DBG_DBG, "do_bindings: trying to get port for service \"%s\" (getaddrinfo)\n", SANED_SERVICE_NAME); memset (&hints, 0, sizeof (struct addrinfo)); hints.ai_family = PF_UNSPEC; hints.ai_flags = AI_PASSIVE; hints.ai_socktype = SOCK_STREAM; err = getaddrinfo (NULL, SANED_SERVICE_NAME, &hints, &res); if (err) { DBG (DBG_WARN, "do_bindings: \" %s \" service unknown on your host; you should add\n", SANED_SERVICE_NAME); DBG (DBG_WARN, "do_bindings: %s %d/tcp saned # SANE network scanner daemon\n", SANED_SERVICE_NAME, SANED_SERVICE_PORT); DBG (DBG_WARN, "do_bindings: to your /etc/services file (or equivalent). Proceeding anyway.\n"); err = getaddrinfo (NULL, SANED_SERVICE_PORT_S, &hints, &res); if (err) { DBG (DBG_ERR, "do_bindings: getaddrinfo() failed even with numeric port: %s\n", gai_strerror (err)); bail_out (1); } } for (resp = res, *nfds = 0; resp != NULL; resp = resp->ai_next, (*nfds)++) ; *fds = malloc (*nfds * sizeof (struct pollfd)); if (fds == NULL) { DBG (DBG_ERR, "do_bindings: not enough memory for fds\n"); freeaddrinfo (res); bail_out (1); } fdp = *fds; *nfds = 0; /* bind IPv6 first, IPv4 second */ #ifdef ENABLE_IPV6 do_bindings_family (AF_INET6, nfds, &fdp, res); #endif do_bindings_family (AF_INET, nfds, &fdp, res); resp = NULL; freeaddrinfo (res); if (*nfds <= 0) { DBG (DBG_ERR, "do_bindings: couldn't bind an address. Exiting.\n"); bail_out (1); } } #else /* !SANED_USES_AF_INDEP */ static void do_bindings (int *nfds, struct pollfd **fds) { struct sockaddr_in sin; struct servent *serv; short port; int fd = -1; int on = 1; DBG (DBG_DBG, "do_bindings: trying to get port for service \"%s\" (getservbyname)\n", SANED_SERVICE_NAME); serv = getservbyname (SANED_SERVICE_NAME, "tcp"); if (serv) { port = serv->s_port; DBG (DBG_MSG, "do_bindings: port is %d\n", ntohs (port)); } else { port = htons (SANED_SERVICE_PORT); DBG (DBG_WARN, "do_bindings: \"%s\" service unknown on your host; you should add\n", SANED_SERVICE_NAME); DBG (DBG_WARN, "do_bindings: %s %d/tcp saned # SANE network scanner daemon\n", SANED_SERVICE_NAME, SANED_SERVICE_PORT); DBG (DBG_WARN, "do_bindings: to your /etc/services file (or equivalent). Proceeding anyway.\n"); } *nfds = 1; *fds = malloc (*nfds * sizeof (struct pollfd)); if (fds == NULL) { DBG (DBG_ERR, "do_bindings: not enough memory for fds\n"); bail_out (1); } memset (&sin, 0, sizeof (sin)); sin.sin_family = AF_INET; sin.sin_addr.s_addr = INADDR_ANY; sin.sin_port = port; DBG (DBG_DBG, "do_bindings: socket ()\n"); fd = socket (AF_INET, SOCK_STREAM, 0); DBG (DBG_DBG, "do_bindings: setsockopt ()\n"); if (setsockopt (fd, SOL_SOCKET, SO_REUSEADDR, &on, sizeof (on))) DBG (DBG_ERR, "do_bindings: failed to put socket in SO_REUSEADDR mode (%s)", strerror (errno)); DBG (DBG_DBG, "do_bindings: bind ()\n"); if (bind (fd, (struct sockaddr *) &sin, sizeof (sin)) < 0) { DBG (DBG_ERR, "do_bindings: bind failed: %s", strerror (errno)); bail_out (1); } DBG (DBG_DBG, "do_bindings: listen ()\n"); if (listen (fd, 1) < 0) { DBG (DBG_ERR, "do_bindings: listen failed: %s", strerror (errno)); bail_out (1); } (*fds)->fd = fd; (*fds)->events = POLLIN; } #endif /* SANED_USES_AF_INDEP */ static void run_standalone (int argc, char **argv) { struct pollfd *fds = NULL; struct pollfd *fdp = NULL; int nfds; int fd = -1; int i; int ret; uid_t runas_uid = 0; gid_t runas_gid = 0; struct passwd *pwent; gid_t *grplist = NULL; struct group *grp; int ngroups = 0; FILE *pidfile; do_bindings (&nfds, &fds); if (run_mode != SANED_RUN_DEBUG) { if (argc > 2) { pwent = getpwnam(argv[2]); if (pwent == NULL) { DBG (DBG_ERR, "FATAL ERROR: user %s not found on system\n", argv[2]); bail_out (1); } runas_uid = pwent->pw_uid; runas_gid = pwent->pw_gid; /* Get group list for runas_uid */ grplist = (gid_t *)malloc(sizeof(gid_t)); if (grplist == NULL) { DBG (DBG_ERR, "FATAL ERROR: cannot allocate memory for group list\n"); exit (1); } ngroups = 1; grplist[0] = runas_gid; setgrent(); while ((grp = getgrent()) != NULL) { int i = 0; /* Already added current group */ if (grp->gr_gid == runas_gid) continue; while (grp->gr_mem[i]) { if (strcmp(grp->gr_mem[i], argv[2]) == 0) { int need_to_add = 1, j; /* Make sure its not already in list */ for (j = 0; j < ngroups; j++) { if (grp->gr_gid == grplist[i]) need_to_add = 0; } if (need_to_add) { grplist = (gid_t *)realloc(grplist, sizeof(gid_t)*ngroups+1); if (grplist == NULL) { DBG (DBG_ERR, "FATAL ERROR: cannot reallocate memory for group list\n"); exit (1); } grplist[ngroups++] = grp->gr_gid; } } i++; } } endgrent(); } DBG (DBG_MSG, "run_standalone: daemonizing now\n"); fd = open ("/dev/null", O_RDWR); if (fd < 0) { DBG (DBG_ERR, "FATAL ERROR: cannot open /dev/null: %s\n", strerror (errno)); exit (1); } ret = fork (); if (ret > 0) { _exit (0); } else if (ret < 0) { DBG (DBG_ERR, "FATAL ERROR: fork failed: %s\n", strerror (errno)); exit (1); } DBG (DBG_WARN, "Now daemonized\n"); /* Write out PID file */ pidfile = fopen (SANED_PID_FILE, "w"); if (pidfile) { fprintf (pidfile, "%d", getpid()); fclose (pidfile); } else DBG (DBG_ERR, "Could not write PID file: %s\n", strerror (errno)); chdir ("/"); dup2 (fd, STDIN_FILENO); dup2 (fd, STDOUT_FILENO); dup2 (fd, STDERR_FILENO); close (fd); setsid (); /* Drop privileges if requested */ if (runas_uid > 0) { ret = setgroups(ngroups, grplist); if (ret < 0) { DBG (DBG_ERR, "FATAL ERROR: could not set group list: %s\n", strerror(errno)); exit (1); } free(grplist); ret = setegid (runas_gid); if (ret < 0) { DBG (DBG_ERR, "FATAL ERROR: setegid to gid %d failed: %s\n", runas_gid, strerror (errno)); exit (1); } ret = seteuid (runas_uid); if (ret < 0) { DBG (DBG_ERR, "FATAL ERROR: seteuid to uid %d failed: %s\n", runas_uid, strerror (errno)); exit (1); } DBG (DBG_WARN, "Dropped privileges to uid %d gid %d\n", runas_uid, runas_gid); } signal(SIGINT, sig_int_term_handler); signal(SIGTERM, sig_int_term_handler); } #ifdef WITH_AVAHI DBG (DBG_INFO, "run_standalone: spawning Avahi process\n"); saned_avahi (fds, nfds); /* NOT REACHED (Avahi process) */ #endif /* WITH_AVAHI */ DBG (DBG_MSG, "run_standalone: waiting for control connection\n"); while (1) { ret = poll (fds, nfds, 500); if (ret < 0) { if (errno == EINTR) continue; else { DBG (DBG_ERR, "run_standalone: poll failed: %s\n", strerror (errno)); free (fds); bail_out (1); } } /* Wait for children */ while (wait_child (-1, NULL, WNOHANG) > 0) ; if (ret == 0) continue; for (i = 0, fdp = fds; i < nfds; i++, fdp++) { /* Error on an fd */ if (fdp->revents & (POLLERR | POLLHUP | POLLNVAL)) { for (i = 0, fdp = fds; i < nfds; i++, fdp++) close (fdp->fd); free (fds); DBG (DBG_WARN, "run_standalone: invalid fd in set, attempting to re-bind\n"); /* Reopen sockets */ do_bindings (&nfds, &fds); break; } else if (! (fdp->revents & POLLIN)) continue; fd = accept (fdp->fd, 0, 0); if (fd < 0) { DBG (DBG_ERR, "run_standalone: accept failed: %s", strerror (errno)); continue; } if (run_mode == SANED_RUN_DEBUG) break; /* We have the only connection we're going to handle */ else handle_client (fd); } if (run_mode == SANED_RUN_DEBUG) break; } for (i = 0, fdp = fds; i < nfds; i++, fdp++) close (fdp->fd); free (fds); if (run_mode == SANED_RUN_DEBUG) { if (fd > 0) handle_connection (fd); bail_out(0); } } static void run_inetd (int argc, char **argv) { int fd = -1; #ifdef HAVE_SYSTEMD int n; n = sd_listen_fds(0); if (n > 1) { DBG (DBG_ERR, "run_inetd: Too many file descriptors (sockets) received from systemd!\n"); return; } if (n == 1) { fd = SD_LISTEN_FDS_START + 0; DBG (DBG_INFO, "run_inetd: Using systemd socket %d!\n", fd); } #endif if (fd == -1) { int dave_null; /* Some backends really can't keep their dirty fingers off * stdin/stdout/stderr; we work around them here so they don't * mess up the network dialog and crash the remote net backend * by messing with the inetd socket. * For systemd this not an issue as systemd uses fd >= 3 for the * socket and can even redirect stdout and stderr to syslog. * We can even use this to get the debug logging */ do { /* get new fd for the inetd socket */ fd = dup (1); if (fd == -1) { DBG (DBG_ERR, "run_inetd: duplicating fd failed: %s", strerror (errno)); return; } } while (fd < 3); /* Our good'ole friend Dave Null to the rescue */ dave_null = open ("/dev/null", O_RDWR); if (dave_null < 0) { DBG (DBG_ERR, "run_inetd: could not open /dev/null: %s", strerror (errno)); return; } close (STDIN_FILENO); close (STDOUT_FILENO); close (STDERR_FILENO); dup2 (dave_null, STDIN_FILENO); dup2 (dave_null, STDOUT_FILENO); dup2 (dave_null, STDERR_FILENO); close (dave_null); } #ifndef HAVE_OS2_H /* Unused in this function */ argc = argc; argv = argv; #else /* under OS/2, the socket handle is passed as argument on the command line; the socket handle is relative to IBM TCP/IP, so a call to impsockethandle() is required to add it to the EMX runtime */ if (argc == 2) { fd = _impsockhandle (atoi (argv[1]), 0); if (fd == -1) perror ("impsockhandle"); } #endif /* HAVE_OS2_H */ handle_connection(fd); } int main (int argc, char *argv[]) { char options[64] = ""; debug = DBG_WARN; prog_name = strrchr (argv[0], '/'); if (prog_name) ++prog_name; else prog_name = argv[0]; numchildren = 0; run_mode = SANED_RUN_INETD; if (argc >= 2) { if (strncmp (argv[1], "-a", 2) == 0) run_mode = SANED_RUN_ALONE; else if (strncmp (argv[1], "-d", 2) == 0) { run_mode = SANED_RUN_DEBUG; log_to_syslog = SANE_FALSE; } else if (strncmp (argv[1], "-s", 2) == 0) run_mode = SANED_RUN_DEBUG; } if (run_mode == SANED_RUN_DEBUG) { if (argv[1][2]) debug = atoi (argv[1] + 2); DBG (DBG_WARN, "main: starting debug mode (level %d)\n", debug); } if (log_to_syslog) openlog ("saned", LOG_PID | LOG_CONS, LOG_DAEMON); read_config (); byte_order.w = 0; byte_order.ch = 1; sanei_w_init (&wire, sanei_codec_bin_init); wire.io.read = read; wire.io.write = write; #ifdef SANED_USES_AF_INDEP strcat(options, "AF-indep"); # ifdef ENABLE_IPV6 strcat(options, "+IPv6"); #endif #else strcat(options, "IPv4 only"); #endif #ifdef HAVE_SYSTEMD if (sd_listen_fds(0) > 0) { strcat(options, "+systemd"); } #endif if (strlen(options) > 0) { DBG (DBG_WARN, "saned (%s) from %s starting up\n", options, PACKAGE_STRING); } else { DBG (DBG_WARN, "saned from %s ready\n", PACKAGE_STRING); } if ((run_mode == SANED_RUN_ALONE) || (run_mode == SANED_RUN_DEBUG)) { run_standalone(argc, argv); } else { run_inetd(argc, argv); } DBG (DBG_WARN, "saned exiting\n"); return 0; }